EPOX EP-3WXM User manual

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User manual

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TRADEMARK
All products and company names are trademarks or registered
trademarks of their respective holders.
These specifications are subject to change without notice.
Manual Revision 3.1
July 7, 1999
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EP-3WXMEP-3WXM
EP-3WXMEP-3WXM
EP-3WXM
EP-3WXM2EP-3WXM2
EP-3WXM2EP-3WXM2
EP-3WXM2
EP-3WXM4EP-3WXM4
EP-3WXM4EP-3WXM4
EP-3WXM4
EP-3WXM/2/4
User Notice
No part of this product, including the product and software may be reproduced,
transmitted, transcribed, stored in a retrieval system, or translated into any
language in any form without the express written permission of EPoX Computer
Company (hereinafter referred to as EPoX) except for documentation kept by the
purchaser for backup purposes.
We provide this manual “as is” without warranty of any kind, either expressed or
implied, including but not limited to the implied warranties or conditions of
merchantability or fitness for a particular purpose. In no event shall EPoX be
liable for any loss of profits, loss of business, loss of use or data, interruption of
business or for indirect, special incidental, or consequential damages of any kind,
even if EPoX has been advised of the possibility of such damages arising from any
defect or error in the manual or product. EPoX may revise this manual from time
to time without notice. For updated BIOS, drivers, or product release information
you may visit our websites at http://www.epox.com or http://www.epox.com.tw.
Products mentioned in this manual are mentioned for identification purposes only.
Product names appearing in this manual may or may not be registered trademarks
or copyrights of their respective companies. The product name and revision
number are both printed on the mainboard itself.
Handling Procedures
Static electricity can severely damage your equipment. Handle the EP-3WXM/2/4
and any other device in your system with extreme care and avoid unnecessary
contact with system components on the mainboard. Always work on an antistatic
surface to avoid possible damage to the mainboard from static discharge. Always
have the power supply unplugged and powered off when inserting and removing
devices within the computer chassis. EPoX assumes no responsibility for any
damage to the EP-3WXM/2/4 mainboard that results from failure to follow
instruction or failure to observe safety precautions.
CAUTION
The EP-3WXM/2/4 mainboard is subject to
damage by static electricity. Always
observe the handling procedures.
EP-3WXM/2/4
Technical Support Services
If you need additional information, help during installation or normal use of this
product, please contact your retailer. Your retailer will have the most current
information about your configuration. If your retailer cannot help, you may visit
our online technical support website and/or contact our support technicians at the
locations listed below.
Record your serial number before installing your EP-3WXM/2/4 mainboard. (The
serial number is located near the PCI slots at the edge of the board.)
EP-3WXM/2/4 serial number: _______________________________
Contacting Technical Support
EPoX technical support is working hard to answer all of your questions online.
From our website you can find answers to many common questions, drivers, BIOS
updates, tech notes, and important technical bulletins. If you are still unable to
locate the solution you are seeking, you always have the option to contact our
support technicians directly.
North American website (English language)
http://www.epox.com
European website (Multi-language)
http://www.epox.nl
Taiwan website (Chinese language)
http://www.epox.com.tw
Thank you for using EPoX mainboards!
Copyright 1999 EPoX Computer Company. All rights reserved.
EP-3WXM/2/4
Table of Contents
Section 1 Introduction
Components Checklist..............................................1-1
Overview
Intel Celeron processors, the plastic pin grid array
(P.P.G.A.) 370.........................................................1-2
The plastic pin grid array (P.P.G.A.) 370 processor
Installation and Removal ..........................................1-3
Intel(R) 810 chipset features ....................................1-4
EP-3WXM/2/4 Form-Factor....................................1-6
I/O Shield Connector................................................1-7
Power-On/Off (Remote) ..........................................1-7
System Block Diagram.............................................1-8
Section 2 Features
EP-3WXM/2/4 Features ..........................................2-1
Section 3 Installation
EP-3WXM/2/4 Detailed Layout...............................3-2
Easy Installation Procedure
Configure Jumpers ...................................................3-3
System Memory Configuration ................................3-4
Device Connectors ...................................................3-7
External Modem Ring-in Power ON and
Keyboard Power ON Function (KBPO) ..................3-9
Section 4 Award BIOS Setup
Main Menu ...............................................................4-1
Standard CMOS Setup.............................................4-3
Advanced BIOS Features.........................................4-7
Advanced Chipset Features ......................................4-10
Integrated Peripherals...............................................4-13
Power Management Setup .......................................4-16
PNP/PCI Configuration Setup .................................4-19
Page
EP-3WXM/2/4
PC Health Status ......................................................4-21
Frequency/Voltage Control .......................................4-22
Defaults Menu..........................................................4-23
Supervisor/User Password Setting ...........................4-24
Exit Selecting ............................................................4-25
Section 5 810 VGA and Sound Driver Installation
Easy Driver Installation ............................................5-1
Appendix
Appendix A
Memory Map ...........................................................A-1
I/O Map....................................................................A-1
Timer & DMA Channels Map..................................A-2
Interrupt Map ...........................................................A-2
RTC & CMOS RAM Map.......................................A-3
Appendix B
POST Codes ............................................................A-5
Appendix C
Load Optimized Defaults .........................................A-13
EP-3WXM/2/4
Page Left Blank
IntroductionEP-3WXM/2/4
Page 1-1
Section 1
INTRODUCTION
Components Checklist
üü
üü
ü A. (1) EP-3WXM/2/4 mainboard
üü
üü
ü B. (1) EP-3WXM/2/4 users manual
üü
üü
ü C. (1) Floppy ribbon cable
üü
üü
ü D. (1) Hard driver ribbon cables
Hard drive for UltraATA66/33 an 80 conductor cable(Optional)
üü
üü
ü E. (1) RS-232 9-PIN ribbon cable
F. (1) PS/2 to AT keyboard connector adapter (optional)
üü
üü
ü G. (1) Onboard Graphic and Sound Driver
USER’S
MANUAL
EP-3WXM/2/4
B
A
F
C
D
E
G
or
or
Introduction EP-3WXM/2/4
Page 1-2
Overview
Intel Celeron processors, the plastic pin grid array
(P.P.G.A.) 370
The Intel Celeron processors provide power to handle the internet, educational
programs, interactive 3D games, and productivity applications. The Intel Celeron
processors at 466, 433, 400, 366, 333 and 300A MHz include integrated L2 cache
128Kbyte. The core for the 466, 433, 400, 366, 333 and 300A MHz processors
have 19M transistors due to the addition of the integrated L2 cache 128Kbyte. All
the Intel Celeron processors are available in the plastic pin grid array (P.P.G.A.)
form factor. The P.P.G.A. form factor is compatible with the 370 pin socket. All
the Intel Celeron processors are available in the plastic pin grid array (PPGA)
package. The PPGA package is compatible with the 370 pin socket and provides
more flexibility to design low cost systems by enabling lower profile and smaller
systems and providing the potential for reducing costs of processor retention and
cooling solutions. Like the Intel Celeron processors that utilize S.E.P.P., the Intel
Celeron processors that use P.P.G.A., feature a P6-microarchitecture-based core
processor on a single-sided substrate without BSRAM componentry.
The Intel Celeron processor at 466, 433, 400, 366, 333, and 300A MHz. Includes
Intel MMX[tm] media enhancement technology. Offers Dynamic Execution
technology.
Includes a 32Kbyte (16Kbyte/16Kbyte) non-blocking, level-one cache that provides
fast access to heavily used data. Intel Celeron processors at 466, 433, 400, 366,
333 and 300A MHz include integrated L2 cache 128Kbyte. All the Intel Celeron
processor utilize the Intel P6 microarchitecture’s multi-transaction system bus at
66MHz. The 466, 433, 400, 366, 333 and 300A MHz processors utilize the Intel
P6 microarchitecture’s multi-transaction system bus with the addition of the L2
cache interface. The combination of the L2 cache bus and the processor-to-main-
memory system bus increases bandwidth and performance over single-bus
processors.
Intel MMX technology includes new instructions and data types that allow
IntroductionEP-3WXM/2/4
Page 1-3
applications to achieve a new level of performance. Intel’s MMX technology is
designed as a set of basic, general-purpose integer instructions that are easily
applied to the needs of a wide diversity of multimedia and communications
applications. The highlights of the technology are:
* Single Instruction, Multiple Data (SIMD) technique
* 57 new instructions
* Eight 64-bit wide MMX technology registers
* Four new data types
The plastic pin grid array (P.P.G.A.) 370 processor
Installation and Removal
Installation:
Install the processor and the fan heatsink using the Installation Notes provided
with the boxed processor. First, raise the handle of the 370-pin socket. Carefully
install the processor into the 370-pin socket making sure that none of the pins are
bent. Then close the handle of the socket. Next install the fan heatsink. Make sure
to install the heatsink onto the processor after the processor has been inserted
into the 370-pin socket. Place the fan heatsink onto the processor such that the
integrated clip lines up with the socket’s attach tabs. This will align the fan cable
with the PGA370 mark on the 370-pin
socket. Remember not to damage the
thermal interface pad. Attach the clip onto
the socket’s attach tabs. (A small tool, such
as a pen, may make this process easier.) Take
care to consider potential scraping of the
motherboard underneath the 370-pin socket
attach tabs. Connect the attached fan power
cable to the motherboard connector and
quickly power on the system to verify that
the processor fan is running.
Introduction EP-3WXM/2/4
Page 1-4
Removal:
To simplify the following process, consider removing the motherboard from the
chassis before removing the processor. First, unplug the fan power cable from the
motherboard’s connector. Then pull the integrated clip away from the socket’s tab
nearest the fan cable. (A small tool, such as a pen or screwdriver, may make this
process easier.) Once the clip is free, slowly lift the fan heatsink straight up away
from the socket and the processor. (If the processor has been in operation for a
long period of time, then this step may require some extra force; this is because the
heat dissipated from the processor will have affected the thermal interface pad)
Next, lift up the handle of the 370-pin socket. Finally, carefully remove the proces-
sor from the socket making sure not to bend any of the processor pins.
Intel(R) 810 chipset features
The Intel(R) 810 chipset that Built on the strong foundation of Intel(R) 440BX
AGPset technology, the Intel(R) 810 chipset has re-engineered the Value PC,
providing next generation features and great graphics performance.
The 82810 Graphics Memory Controller Hub (GMCH) features : Intel(R)
graphics technology and software drivers, using Direct AGP (integrated AGP) to
create vivid 2D and 3D effects and images. The 82810 chip feature integrated
Hardware Motion Compensation to improve soft DVD video quality.
The Inte(R) 82810 chipset use Intel(R) Dynamic Video Memory Technology (D.
V.M.T.) is an architecture that offers breakthrough performance for the
(motherboard) PC through efficient memory utilization and Direct AGP. The
system OS uses the Intel software drivers and intelligent memory arbiter to
support richer graphics applications.
The 82801 I/O Controller Hub (ICH) employs the Intel(R) Accelerated Hub
Architecture to make a direct connection from the graphics and memory to the
integrated AC97 controller, the IDE controllers (ATA/66 or ATA/33), dual USB
ports, and PCI add-in cards.
IntroductionEP-3WXM/2/4
Page 1-5
The Accelerated Hub Architecture provides twice the bandwidth of the PCI bus at
266 MB per second. This allows a wider flow of rich information from the I/O
controller to the memory controller, with optimized arbitration rules allowing
more functions to run concurrently, enabling more life-like audio and video.
The Integrated Audio-Codec 97 controller enables software audio and modem
(AMR Riser Optional) by using the processor to run sound and modem software.
By reusing existing system resources, this feature adds flexibility, improves
sound and modem quality.
The 82802 Firmware Hub (FWH, 4MB) stores system BIOS and video BIOS,
eliminating a redundant nonvolatile memory component. In addition, the 82802
contains a hardware Random Number Generator (RNG). The Intel(R) RNG
provides truly random numbers to enable fundamental security building blocks
supporting stronger encryption, digital signing, and security protocols for the
future application program.
Introduction EP-3WXM/2/4
Page 1-6
EP-3WXM/2/4 Form-Factor
The EP-3WXM/2/4 is designed with Micro-ATX form factor - the new industry
standard of chassis. The Micro-ATX form factor is essentially a Baby-AT base-
board rotated 90 degrees within the chassis enclosure and a new mounting
configuration for the power supply. With these changes the processor is relocated
away from the expansion slots, allowing them all to hold full length add-in cards.
Micro-ATX defines a double height aperture to the rear of the chassis which can
be used to host a wide range of onboard I/O. Only the size and position of this
aperture is defined, allowing PC manufacturers to add new I/O features (e.g.; TV
input, TV output, modem, LAN, etc.) to systems. This will help systems integra-
tors differentiate their products in the marketplace, and better meet your needs.
Smaller size promotes a smaller system size.
I/O shield does not need to be retooled in an ATX 2.01 or later. Mainboard
could be used in an ATX 2.01-compliant.
A smaller power supply cam be used. High integration on mainboard reduces
the system costs.
Full length
slots
Expandable I/O
Figure 2: Summary of Micro-ATX chassis features
CPU located near
Power Supply
Single chassis
fan for
system
Micro-
ATX
Power
Supply
ATX power
connector
Floppy / IDE
connectors
close to
peripheral
bays
5 1/4"
Bay
3 1/2"
Bay
IntroductionEP-3WXM/2/4
Page 1-7
I/O Shield Connector
The EP-3WXM/2/4 is equipped with an I/O back panel. Please use the appropri-
ate I/O shield (figure 3).
Power-On/Off (Remote)
The EP-3WXM/2/4 has a single 20-pin connector for ATX power supplies. For
ATX power supplies that support the Remote On/Off feature, this should be con-
nected to the systems front panel for system Power On/Off button. The systems
power On/Off button should be a momentary button that is normally open.
The EP-3WXM/2/4 has been designed with “Soft Off" functions. You can turn Off
the system from one of two sources: The first is the front panel Power On/Off the
button, and the other is the "Soft Off" function (coming from the EP-3WXM/2/4’s
onboard circuit controller) that can be controlled by the operating system. Win-
dows 95/98 will control this when the user clicks that they are ready to Shutdown
the system.
Case (chassis) Power
ON/OFF button
Figure 4: Simple Micro-ATX Power
ON/OFF Controller
Figure 3: I/O back panel layout
parallel port
MIC
Joystick/Midi
USB port
COM1
VGA1
Speaker
Line_in
PS/2 Mouse
PS/2
J3
ATX
POWER SUPPLY
Introduction EP-3WXM/2/4
Page 1-8
Figure 5: System Block Diagram
System Block Diagram
FeaturesEP-3WXM/2/4
Page 2-1
Section 2
FEATURES
EP-3WXM/2/4 Features:
EP-3WXM/2/4 is based on the Intel Celeron
TM
Processor operating at 300A
~ 466MHz (66MHz) or 100MHz FSB for feature processor on PPGA 370
socket. The board is configured by an Easy-Setting-Single-Jumper (E.S.S.J.)
to match your CPU clock speed.
CPU clock ratio from 3x~8x setting in BIOS.
Designed with Intel’s 810 chipset.
Supports up to 512 MB of DRAM (minimum of 16 MB) on board, You
can use 168-pin DIMM x 2. It will run Synchronous DRAM memory
(SDRAM) at 100MHz.
64-bit system memory interface with optimized support for SDRAM at
100MHz.
Integrated 2D & 3D Graphics Engine, H/W Motion Compensation Engine,
230MHz DAC and 4MB Display Cache (EP-3WXM4 only).
AC’97 2.1 Audio CODEC onboard.
Supports (3) 32 bit PCI slots, provides (2) independent high performance
PCI IDE interfaces capable of supporting PIO Mode 3/4 and Ultra DMA
66 devices. The EP-3WXM/2/4 supports (3) PCI Bus Master slots and a
jumperless PCI INT# control scheme which reduces configuration confu-
sion when plugging in PCI card(s).
Supports ATAPI (e.g. CD-ROM) devices on both Primary and Secondary
IDE interfaces.
Designed with Winbond W83627HF LPC (Low Pin Count) I/O: (1) floppy
port, (1) parallel port (EPP, ECP), and (2) serial ports (16550 Fast UART)
Features EP-3WXM/2/4
Page 2-2
Includes a PS/2 mouse connector.
Allows use of a PS/2 keyboard.
Features Award Plug & Play BIOS. With 4MB(FWH) Flash Memory you
can always upgrade to the current BIOS.
EP-3WXM/2/4 utilizes a Lithium battery which provides environmental
protection and longer battery life.
Supports the Universal Serial Bus (USB) connector. The onboard ICH
(82801) chip provides the means for connecting PC peripherals such as;
keyboards, joysticks, speaker, and mouse.
Built-in ATX 20-pin power supply connector.
Software power-down when using Windows
®
95/98.
Supports ring-in feature (remote power-on through external modem, allow
system to be turned on remotely.
Resume by Alarm - Allow your system to turn on at a preselected time.
Supports CPU Hardware sleep and SMM (System Management Mode).
Supports Hot key, Any key or password Keyboard power ON function
(KBPO).
Supports the CPU, PWR and Chassis fan Auto stop in the sleep mode.
Supports the System Power LED (PANEL) blinks in the sleep mode.
Built-in WOL (Wake On Lan) Connector.
Supports the AMR Connector for enables the software modem.
The Modem Riser Card (MR) or Modem Codec (MC) must be secondary
only on the EP-3WXM/EP-3WXM2/EP-3WXM4.
InstallationEP-3WXM/2/4
Page 3-1
Section 3
INSTALLATION
Installation EP-3WXM/2/4
Page 3-2
Figure 1
EP-3WXM/2/4 Detailed Layout
InstallationEP-3WXM/2/4
Page 3-3
Easy Installation Procedure
Easy Installation Procedure
The following must be completed before powering on your new system:
3-1. Configure Jumpers to match your hardware
3-2. System Memory Configuration
3-3. Device Connectors
3-4. External Modem Ring-in Power ON and Keyboard Power ON
Functions (KBPO)
Section 3-1
Configure Jumpers
The EP-3WXM/2/4 designs all motherboards with the fewest jumpers to make
your installation fast and easy.
The following will describe all of the jumpers that you are required to set before
moving on to step 3-2.
Note: The jumpers as depicted as shown (Figure 1) in their correct
physical orientation.
1
JP1 CMOS Clear
JP1 = 1-2 Normal (Default)
= 2-3 Clear CMOS
CPU Speed SelectionJP3
100MHz
Rsd
66MHz
AUTO
1
(Default)
* Note: If CPU is S-Spec processor, than ignore the
CPU ratio setting, otherwise the CPU ratio
setting in BIOS (Frequency/Voltage Control).
Rsd: Reserved
JP13
Keyboard Power-ON Function
JP13= 1-2 Enabled
= 2-3 Disabled (Default)
1
Installation EP-3WXM/2/4
Page 3-4
Section 3-2
System Memory Configuration
Memory Layout
The EP-3WXM/2/4 supports (2) 168-pin DIMMs (Dual In-line Memory
Module). The DIMMs can be either EDO (Extended Data Out) or SDRAM
(Synchronized DRAM).
100MHz system memory bus frequency. Even if the system host bus is
66MHz.
8MB to 256MB using 16MB/64MB technology (512MB using 128MB
technology).
256MB Support Registered synchronous DRAM Memory Modules.
We recommend to installed the “PC/100MHz SDRAM Spec.”, using
DIMM SDRAM must be 125MHz (-8ns) bus speed. If used 100MHz
(-10ns) SDRAM may be critical timing for the motherboard.
DIMM SDRAM may be 100MHz (-10ns) or 125MHz (-8ns) bus speed.
Figure 2 and Table 1 show several possible memory configurations using
* SDRAM only supports 16, 32, 64, 128, 256MB DIMM modules.
Table 1
yromeMlatoT
1MMID
)1/0knaB(
2MMID
)3/2knaB(
BM652=
mumixaM
*MARDS
,BM46,BM23,BM61
1XBM652,BM821
enoN
BM215=
mumixaM
*MARDS
,BM46,BM23,BM61
1XBM652,BM821
*MARDS
,BM46,BM23,BM61
1XBM652,BM821
DIMM 2
DIMM 1
Bank 2/3
Bank 0/1
-Synchronous
Figurre 2
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EPOX EP-3WXM User manual

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